transitive actions are primitive if and only if stabilizers are maximal subgroups


Theorem 1.

If G is transitiveMathworldPlanetmathPlanetmathPlanetmathPlanetmathPlanetmath on the set A, then G is primitive on A if and only if for each aA, Ga is a maximal subgroup of G. Here Ga=StabG(a) is the stabilizerMathworldPlanetmath of aA.

Proof.

First claim that if G is transitive on A and BA is a block (http://planetmath.org/BlockSystem) with aB, then GB={σGσ(B)=B} is a subgroupMathworldPlanetmathPlanetmath of G containing Ga. It is obvious that GB is a subgroup, since

σGBσ(B)=Bσ-1(σ(B))=σ-1(B)B=σ-1(B)σ-1GB
σ,τGB(στ)(B)=σ(τ(B))=σ(B)=BστGB

But also, if σGa for aB, then σ(a)=a, so σ(B)B and thus σ(B)=B since B is a block system and thus σGB. This proves the claim.

To prove the theorem, note that for each aA, there is by the claim a 1-1 correspondence between containing a and subgroups of G containing Ga. Thus, G is primitive on A if and only if all blocks are either of size 1 or equal to A, if and only if any group containing Ga is either Ga itself or G, if and only if for all aA, Ga is maximal in G. ∎

Title transitive actions are primitive if and only if stabilizers are maximal subgroups
Canonical name TransitiveActionsArePrimitiveIfAndOnlyIfStabilizersAreMaximalSubgroups
Date of creation 2013-03-22 17:19:07
Last modified on 2013-03-22 17:19:07
Owner rm50 (10146)
Last modified by rm50 (10146)
Numerical id 6
Author rm50 (10146)
Entry type Theorem
Classification msc 20B15